NO148154B - APPLICATION OF RENALUMINIUM WITH 0.05 TO 0.1 WEIGHT% SILICONE AND 0.1 TO 0.25 WEIGHT% IRON - Google Patents

Description

As is well known, the soft annealing conditions have a major impact on the softening state of flow-pressed/box-shaped bodies. When these are varnished, part of the increase in strength is lost during storage.

On this background, there is an object of the invention

to reduce the reduction in strength by fire lacquering of such box-shaped bodies, and by means of increased strength values for such bodies to achieve a significant metal saving.

The solution of this task leads to the recognition of

that the firmness due to cold deformation, i.e. extrusion, should decrease as little as possible after burning in the varnish, and that the resistance to deformation with the help of recrystallization-inhibiting additives does not increase.

According to the invention, this is achieved by using pure aluminum with 0.05 to 0.1% by weight of silicon and 0.1

to 0.25% by weight of iron, and where the pure aluminum has been added at least two of the recrystallization-inhibiting and in aluminum peritectic elements chromium, titanium and zirconium in amounts of 0.02 to 0.3% by weight of each element,

for the production of flow-pressed and fire-varnished, box-shaped bodies.

These small addition amounts of recrystallization-inhibiting elements cause a decrease in the strength reduction for the hardened, box-shaped element during varnish firing, but the elements must be dosed in such a way that they do not interfere with the extrusion process.

Casting on a turntable, hot and cold rolling as well as normal annealing of rondels can also be maintained, so that investment costs are avoided. It is also possible to carry out the production with pieces of material from extruded strips.

It has proven particularly beneficial to add chromium and/or titanium and/or zirconium in quantities of less than 0.2% by weight.

According to a further feature of the invention, the addition of titanium and zirconium shall together amount to 0.2% by weight.

When tested, pieces of pure aluminum were obtained from a hot-rolled strip

and renaluminium pieces with the addition of 0.1% by weight of titanium and zirconium compared. Box-shaped bodies subjected to a heat treatment equivalent to burnishing and produced from these two variants show that the addition of titanium and zirconium causes an approximately 20% higher tensile strength compared to box-shaped bodies made from pure aluminum pieces without these additions. The material saving for the box-shaped bodies amounts to approximately 8%, due to the increase in firmness.

Further advantages, features and details of the invention appear from the following table and attached drawing, which shows test results from four different trials.

Pieces of plates with a thickness of approx

7 mm and of different compositions, and the pieces were after a heating time of approx. 40 minutes in an air heating furnace, annealed for approximately 10 seconds at 490°c. The material composition appears in the following table.

Then, to simulate an extrusion process, the pieces were cold rolled to 0.5 mm and instead of burning

varnishing heated in a salt bath at 260°C and quenched in water.

In the coordinate system shown in the drawing is along

the horizontal axis indicates the heating time in minutes for the simulated fire varnishing, and along the vertical axis the tensile strength is indicated in kp/mm^.

If the curves for the material compositions I, II, III and IV are compared, where material no. at least two of the elements chromium, titanium and zirconium. The difference in tensile strength after an annealing time of 8 minutes is thus approximately 4 kp/mm<2>.

The strength values for the box-shaped bodies are somewhat higher than the shown strength values for the plates, and the corresponding curves for the box-like bodies will therefore be shifted parallel upwards in relation to those shown.

Claims (3)

1. Use of pure aluminum with 0.05 to 0.1 wt* silicon and 0.1 to 0.25 wt% iron, and where the pure aluminum has been added at least two of the recrystallization-inhibiting and in aluminum peritectic elements chromium, titanium, and zirconium in amounts of 0.02 to 0.3 by weight of each element, for the production of flow-pressed and fire-varnished, box-shaped bodies. 2. Use as stated in claim 1, in that less than 0.2 wt.SS of chromium and/or titanium and/or zirconium has been added. 3. Use as stated in claim 1 or 2, in that 0.2% by weight of titanium and zirconium have been added together.